CN108221420B

CN108221420B - Blade rope pricking machine

Info

Publication number: CN108221420B
Application number: CN201711458250.XA
Authority: CN
Inventors: 安贺奎
Original assignee: Hebei Shengmai Building Material Technology Co ltd
Current assignee: ANPING ZHONGQIAN BUILDING MATERIALS TECHNOLOGY Co.,Ltd.
Priority date: 2017-12-28
Filing date: 2017-12-28
Publication date: 2021-06-29
Anticipated expiration: 2037-12-28
Also published as: CN108221420A

Abstract

The invention discloses a blade rope pricking machine, and aims to provide a blade rope pricking machine capable of overcoming the defects of high labor intensity and low working efficiency caused by manual manufacturing in the prior art.

Description

Blade rope pricking machine

Technical Field

The invention relates to a thorn rope processing device, in particular to a blade thorn rope machine.

Background

The blade thorn rope is a metal strip with a blade and a steel wire combined thorn rope, and is mainly used for various safety isolations of military facilities, communication stations, power distribution stations, frontier defense lines, prisons, garbage dumps, community protection, schools, factories, farms and the like.

Disclosure of Invention

The invention aims to provide a blade rope pricking machine, which overcomes the defects of high labor intensity and low working efficiency of manual manufacturing in the prior art.

The technical purpose of the invention is realized by the following technical scheme: a blade rope pricking machine sequentially comprises a steel plate feeding device, a punching machine and a wire wrapping device, wherein the steel plate feeding device comprises a feeding support and a rotating wheel which is connected to the feeding support in a rotating mode and used for inputting a sheet metal plate to the punching machine, the punching machine comprises a machine base, a punching head and a punching die which are arranged on the machine base and used for pressing the sheet metal plate into a plurality of strip metal plates with a plurality of dovetail grooves along the length direction, a layering winding device is arranged between the punching machine and the wire wrapping device, the layering winding device comprises a layering frame, a winding disc and a first winding driving mechanism, the layering frame comprises an upper layer frame and a lower layer frame, the upper layer frame and the lower layer frame are symmetrically arranged, the upper layer frame and the lower layer frame are respectively provided with a plurality of tensioning shafts, the strip metal plates are punched and passed through the tensioning shafts, it is a plurality of tensioning axle all rotates to be connected on the layering frame, one side that upper shelf and lower floor's frame are close to the rolling dish all rotates and is connected with the guiding axle of inputing the rolling dish simultaneously with strip metal, guiding axle and tensioning axle are along axial parallel arrangement, the strip metal sheet that the outer wall of rolling dish was arranged corresponding to the tensioning epaxial is provided with a plurality of first annuluses along circumference parallel arrangement, one side that is close to the layering coiling mechanism of punch press is provided with the tensioning running gear.

Through the technical scheme, the punch press is provided with the strip-shaped metal plates which can punch the sheet-shaped metal plates into the strip-shaped metal plates with the blades, the adjacent strip-shaped metal plates are separated through the layered winding device, and each strip-shaped metal plate is wound into the first ring groove of the winding disc.

Further, the top that lies in the guiding axle on the layering frame rotates and is connected with the bracing piece, establish and a plurality of depression bars of fixedly connected with along the axial cover on the bracing piece, it is a plurality of the one end that the depression bar kept away from the layering frame passes and presses from corresponding first annular respectively and holds on the strip metal sheet of the first annular department of rolling dish.

Through above-mentioned technical scheme, hold each strip metal sheet pressure in first annular through the depression bar and can tightly roll up the strip metal sheet to take up the reel on, improved the strip metal sheet and coiled the in-process and take place loose and lead to coiling unstability easily.

Further, tensioning running gear includes with the shell fixed connection's of punch press tensioning support, along direction of height parallel rotation connect last cylinder and the lower roll on the tensioning support and be used for driving lower roll pivoted travel drive mechanism, it rotates through the bearing frame to connect on the tensioning support to go up the cylinder, the bearing frame slides along vertical placing with the tensioning support and is connected, be connected with the bolt between the top of bearing frame and the tensioning support, bolt one end is contradicted in the top of bearing frame, bolt threaded connection is on the tensioning support and the bolt keeps away from the tip fixedly connected with knob of bearing frame.

Through above-mentioned technical scheme, rotatory bolt can move up and down and change the distance between upper drum and the lower drum along vertical direction to can be used for the metal sheet of different thickness.

Further, the silk wrapping device comprises a silk wrapping support, a large roller and a small roller which are positioned on the silk wrapping support and abutted against each other and used for pressing the steel wire into the middle of the strip-shaped steel plate, and a driving mechanism for driving the large roller and the small roller to rotate, a second annular groove for embedding the steel wire is arranged on the outer wall of the small roller, a convex ring matched with the second annular groove is arranged on the outer wall of the large roller, and the bottom of the large roller is provided with a walking roller which is used for driving the strip-shaped steel plate embedded with the steel wire to walk forwards along the vertical direction and the butt of the large roller.

According to the technical scheme, the strip-shaped metal plate sequentially passes through the small roller and the large roller, the steel wire is fixed in the middle of the strip-shaped metal plate through the second annular groove formed in the small roller and then passes through the second annular groove, and the strip-shaped metal plate and the steel wire are pressed and held together to form the blade barbed wire when passing through the large roller and the action roller.

Further, one side opening setting of frame, the frame is located open-ended bilateral symmetry and is provided with the slope slide rail, the slope slide rail internal slipping has the swash plate that is used for accepting the waste material that falls when the sheet metal cutting becomes the strip metal sheet that has the dovetail, the tip fixedly connected with of slope slide rail set up in the slant be used for blockking the support slide rail that the swash plate glided, the support slide rail internal slipping is connected with the backup pad with the swash plate butt, be provided with on the support slide rail and supply the backup pad to take out the spout that the swash plate slided out the slope slide rail behind the support slide rail, form the groove that gathers materials between swash plate and the backup pad.

Through the technical scheme, the waste material after punching of the punch press drops ground through the frame and easily causes the operational environment pollution, through the setting of swash plate and slope slide rail for the waste material can be followed the swash plate roll-off and concentrated in the groove that gathers materials, through the setting of backup pad, support slide rail and spout, thereby can conveniently take out the waste material on the swash plate to clear up from the spout with the swash plate when supporting the slide rail with the backup pad roll-off.

Further, it cleans the subassembly to be provided with on the collecting tank, clean the subassembly including along the swash plate set up length direction parallel arrangement's second slide rail, be located the swash plate on be close to with the through-hole that backup pad butt department set up and be located the mobilizable row of material drawer that swash plate and backup pad below set up, the second slide rail slides and is connected with the travelling car, one side that the travelling car is close to the swash plate is provided with the push pedal that is used for advancing the waste material to the through-hole, the length direction parallel arrangement of push pedal and swash plate.

Through the technical scheme, when the machine runs, the push plate pushes the waste at the collecting groove into the through hole when the moving trolley moves, and the waste is discharged through the discharging drawer.

Furthermore, the travelling car includes the pulley of being connected with the slide rail slides and drive pulley pivoted driving motor, driving motor electricity is connected with the controller, the one end that lies in on the slide rail parallel with the through-hole is provided with the recess, slide rail department is located the recess and installs the pressure sensor who is used for transmitting pressure for the controller, be provided with on the pressure sensor and supply the travelling car to hold the flexure through the back pressure and transmit pressure for pressure sensor's shell fragment, the controller is including the motor positive and negative module that can start motor reversal after receiving the pressure signal that pressure sensor transmitted.

Through above-mentioned technical scheme, when the travelling car moved the slide rail that the through-hole corresponds, pressure sensor sensed the pressure of travelling car, and pressure sensor gives the controller with pressure transfer, thereby the motor positive and negative module pneumatic motor reversal through the controller drives travelling car antiport to realize the removal repeatedly of travelling car, make the waste material push in the frame both sides through-hole, thereby improved the efficiency of waste material processing.

Further, a vibrator for controlling the vibration of the swash plate is installed on one side of the through hole on the lower side of the swash plate.

Through above-mentioned technical scheme, the setting of vibrator can drive the vibration of ramp to the lower sliding-in collecting chute of waste material accelerates.

In conclusion, the invention has the following beneficial effects:

the blade rope pricking machine is simple and compact in structure, convenient and safe to operate, capable of achieving automatic operation of metal plate punching, metal strip separation and wire wrapping, capable of improving production efficiency and reducing labor intensity.

Drawings

Fig. 1 is a schematic view for showing a connection relationship among a steel plate feeding device, a punching machine and a layered winding device in the embodiment;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic view showing the connection relationship between the upper frame, the lower frame and the tensioning shaft in the present embodiment;

FIG. 4 is a schematic view illustrating the connection among the large roller, the lower roller and the traveling roller in the present embodiment;

FIG. 5 is a schematic view illustrating the connection among the base, the inclined slide rail and the supporting slide rail in the present embodiment;

FIG. 6 is an enlarged view of portion B of FIG. 5;

FIG. 7 is a schematic view showing the connection relationship between the through hole, the discharging drawer and the pushing plate in the present embodiment;

fig. 8 is a schematic diagram for showing the connection relationship among the pressure sensor, the controller and the vibrator in the present embodiment.

In the figure, 1, a steel plate feeding device; 11. a feeding bracket; 12. a rotating wheel; 2. punching; 21. a machine base; 211. inclining the slide rail; 2111. a sloping plate; 212. supporting the slide rail; 2121. a support plate; 213. a material collecting groove; 214. a sweeping assembly; 2141. a second slide rail; 2142. a through hole; 2143. a discharge drawer; 215. moving the trolley; 2151. pushing the plate; 22. a punch; 23. punching a die; 24. tensioning the walking device; 241. tensioning the bracket; 2411. an upper roller; 2412. a lower roller; 2413. a bearing seat; 2414. a bolt; 2415. a knob; 3. a layered winding device; 31. a layered rack; 311. an upper shelf; 312. a lower shelf; 313. tensioning the shaft; 314. a guide shaft; 32. a winding disc; 321. a winding driving mechanism; 322. a first ring groove; 323. a support bar; 324. a pressure lever; 4. a filament wrapping device; 41. wrapping a silk bracket; 411. a large roller; 4111. a convex ring; 412. a small roller; 4121. a second ring groove; 413. a walking roller; 414. bending the roller assembly; 6. Steel wire steel sheet material feeding unit.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b): a blade rope pricking machine comprises a steel plate feeding device 1, a punching machine 2 and a wire wrapping device 4 in sequence, wherein the steel plate feeding device 1 comprises a feeding support 11 and a rotating wheel 12 which is connected to the feeding support 11 in a rotating mode and used for inputting a sheet metal plate to the punching machine 2, the punching machine 2 comprises a base 21, a punch 22 and a punch die 23, the punch 22 and the punch die 23 are installed on the base 21 and used for pressing the sheet metal plate into a plurality of strip metal plates which are symmetrically arranged on two sides and provided with a plurality of dovetail grooves uniformly along the length direction, and a layered winding device 3 is arranged between the punching machine 2 and the wire wrapping device 4.

As shown in fig. 1 and 2, a tensioning traveling device 24 is disposed on one side of the punch press 2 close to the layered winding device 3, the tensioning traveling device 24 includes a tensioning bracket 241 fixedly connected to the base 21, an upper roller 2411 and a lower roller 2412 connected to the tensioning bracket 241 in a parallel manner along a height direction, and a traveling driving mechanism for driving the lower roller 2412 to rotate, the upper roller 2411 is rotatably connected to the tensioning bracket 241 through a bearing block 2413, the bearing block 2413 and the tensioning bracket 241 are connected in a sliding manner along a vertical direction, a bolt 2414 is connected between the top of the bearing block 2413 and the tensioning bracket 241, one end of the bolt 2414 abuts against the top of the bearing block 2413, the bolt 2414 is connected to the tensioning bracket 241 in a threaded manner, and a knob 2415 is fixedly connected to an end of the bolt.

As shown in fig. 1 and 3, the layered winding apparatus 3 includes a layered frame 31 provided corresponding to the punch press 2, the winding disc 32 and the first winding driving mechanism 321 driving the winding disc 32 to rotate are arranged on one side, away from the punch press 2, of the layered frame 31, the layered frame 31 comprises an upper layer frame 311 and a lower layer frame 312, the upper layer frame 311 and the lower layer frame 312 are symmetrically arranged, the adjacent strip-shaped metal plates are formed by separating and punching, the upper layer frame 311 and the lower layer frame 312 are provided with a plurality of tensioning shafts 313 allowing the strip-shaped metal plates to penetrate through in an array mode along the length direction, the tensioning shafts 313 are connected onto the layered frame 31 in a rotating mode, one sides, close to the winding disc 32, of the upper layer frame 311 and the lower layer frame 312 are connected with guide shafts 314 enabling the strip-shaped metal to be simultaneously input into the winding disc 32 in a rotating mode, the guide shafts 314 and the tensioning shafts 313 are arranged in an axial parallel mode, and a plurality of first annular grooves 322 arranged in a circumferential parallel mode are.

As shown in fig. 1, a support rod 323 is rotatably connected to the layering frame 31 above the guide shaft 314, a plurality of pressure rods 324 are axially sleeved and fixedly connected to the support rod 323, and one ends of the plurality of pressure rods 324 far from the layering frame 31 respectively penetrate through the corresponding first annular grooves 322 and press and hold the strip-shaped metal plate at the first annular grooves 322 of the winding disc 32.

As shown in fig. 1 and 4, the wire wrapping device 4 includes a wire wrapping bracket 41, a large roller 411 and a small roller 412 which are located on the wire wrapping bracket 41 and are abutted to each other for pressing the steel wire into the middle of the steel strip, and a driving mechanism for driving the large roller 411 and the small roller 412 to rotate, a second annular groove 4121 for embedding the steel wire is provided on the outer wall of the small roller 412, a convex ring 4111 matched with the second annular groove 4121 is provided on the outer wall of the large roller 411, and a walking roller 413 which is abutted to the large roller 411 along the vertical direction and is used for driving the steel strip embedded with the steel wire to walk forward is provided at the bottom of the large roller 411.

As shown in fig. 1, 5 and 6, an opening is formed in one side of the base 21, inclined slide rails 211 are symmetrically arranged on two sides of the opening of the base 21, inclined plates 2111 for receiving waste materials falling when a sheet metal plate is cut into strip-shaped metal plates with dovetail grooves are slidably moved in the inclined slide rails 211, supporting slide rails 212 which are obliquely and upwardly arranged and used for blocking the inclined plates 2111 from sliding downwards are fixedly connected to the end portions of the inclined slide rails 211, supporting plates 2121 which are abutted to the inclined plates 2111 are slidably connected to the supporting slide rails 212, and sliding grooves for allowing the supporting plates 2121 to be drawn out of the supporting slide rails 212 and allowing the inclined plates 2111 to be slidably moved out of the inclined slide rails 211.

As shown in fig. 6 and 7, a material collecting groove 213 is formed between the inclined plate 2111 and the support plate 2121, a cleaning assembly 214 is arranged on the material collecting groove 213, the cleaning assembly 214 includes a second slide rail 2141 arranged in parallel along the length direction of the inclined plate 2111, a through hole 2142 arranged on the inclined plate 2111 near the support plate 2121, and a movable material discharging drawer 2143 arranged below the inclined plate 2111 and the support plate 2121, the second slide rail 2141 is connected with a moving trolley 215 in a sliding manner, a push plate 2151 for pushing waste materials into the through hole 2142 is arranged on one side of the moving trolley 215 near the inclined plate 2111, and the push plate 2151 is arranged in parallel with the length direction of the inclined plate 2111.

As shown in fig. 6, 7 and 8, the moving trolley 215 includes a pulley connected to the slide rail in a sliding manner and a driving motor for driving the pulley to rotate, the driving motor is electrically connected to a controller, a groove is formed in one end of the slide rail parallel to the through hole 2142, a pressure sensor for transmitting pressure to the controller is installed in the groove at the position of the slide rail, an elastic sheet is arranged on the pressure sensor for allowing the moving trolley 215 to transmit the pressure to the pressure sensor by bending after pressing, and the controller includes a motor forward and reverse rotation module capable of starting the motor to rotate reversely after receiving a pressure signal transmitted by the pressure sensor. A vibrator for controlling vibration of the swash plate 2111 is installed at the lower side of the through hole 2142 of the swash plate 2111.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. A blade thorn rope machine, characterized by: the automatic winding device sequentially comprises a steel plate feeding device (1), a punch press (2) and a wire wrapping device (4), wherein the steel plate feeding device (1) comprises a feeding support (11) and a rotating wheel (12) which is connected to the feeding support (11) in a rotating mode and used for inputting a sheet metal plate to the punch press (2), the punch press (2) comprises a machine base (21), a punch (22) and a punch die (23) which are arranged on the machine base (21) and used for pressing the sheet metal plate into a plurality of strip metal plates with symmetrical sides and a plurality of dovetail grooves uniformly arranged along the length direction, a layered winding device (3) is arranged between the punch press (2) and the wire wrapping device (4), the layered winding device (3) comprises a layered frame (31) correspondingly arranged with the punch press (2), a winding disc (32) arranged on one side of the layered frame (31) deviating from the punch press (2) and a first winding driving mechanism (321) for driving the winding disc (32), the layered frame (31) comprises an upper layer frame (311) and a lower layer frame (312) which are symmetrically arranged, separated and punched to form adjacent strip-shaped metal plates, the upper layer frame (311) and the lower layer frame (312) are respectively provided with a plurality of tensioning shafts (313) along the length direction for the strip-shaped metal plates to penetrate through, the plurality of tensioning shafts (313) are respectively connected on the layered frame (31) in a rotating way, one sides of the upper layer frame (311) and the lower layer frame (312) close to the winding disc (32) are both rotationally connected with a guide shaft (314) which inputs strip-shaped metal into the winding disc (32) simultaneously, the guide shaft (314) and the tensioning shaft (313) are arranged in parallel along the axial direction, the outer wall of the winding disc (32) is provided with a plurality of first ring grooves (322) which are arranged in parallel along the circumference corresponding to the strip-shaped metal plates arranged on the tensioning shaft (313), a tensioning walking device (24) is arranged on one side of the punch (2) close to the layered winding device (3);

the automatic cleaning machine is characterized in that an opening is formed in one side of the machine base (21), inclined sliding rails (211) are symmetrically arranged on two sides of the machine base (21) at the opening, inclined sliding rails (2111) used for bearing waste materials when a sheet metal plate is cut into a strip metal plate with a dovetail groove are arranged in the inclined sliding rails (211) in a sliding mode, a supporting sliding rail (212) which is arranged obliquely upwards and used for blocking the inclined plate (2111) to slide downwards is fixedly connected to the end portion of each inclined sliding rail (211), a supporting plate (2121) which is connected with the inclined plate (2111) in a sliding mode is connected to the supporting sliding rail (212) in a sliding mode, a sliding groove for allowing the supporting plate (2121) to draw out the supporting sliding rail (212) and then allowing the inclined plate (2111) to slide out of the inclined sliding rails (211) is formed between the inclined plate (2111) and the supporting plate (2121), and a, the sweeping assembly (214) comprises a second sliding rail (2141) arranged in parallel along the length direction of the inclined plate (2111), a through hole (2142) arranged on the inclined plate (2111) and close to the joint with the support plate (2121), and a movable discharging drawer (2143) arranged below the inclined plate (2111) and the support plate (2121), wherein the second sliding rail (2141) is connected with a movable trolley (215) in a sliding manner, one side of the movable trolley (215) close to the inclined plate (2111) is provided with a push plate (2151) used for pushing waste materials towards the through hole (2142), the push plate (2151) and the inclined plate (2111) are arranged in parallel along the length direction, the movable trolley (215) comprises a pulley connected with the sliding rail in a sliding manner and a driving motor rotating the driving pulley, the driving motor is electrically connected with a controller, a groove is arranged at one end of the sliding rail parallel to the through hole (2142), and a pressure sensor used for transmitting pressure to the controller is arranged in the groove at the sliding, the pressure sensor is provided with an elastic sheet for transmitting pressure to the pressure sensor by the movable trolley (215) through rear pressing bending, the controller comprises a motor forward and reverse rotation module capable of starting a motor to rotate reversely after receiving a pressure signal transmitted by the pressure sensor, and a vibrator for controlling the inclined plate (2111) to vibrate is installed on one side, located on the through hole (2142), of the lower side of the inclined plate (2111).

2. The blade rope pricking machine as recited in claim 1, further comprising: the top that lies in guiding axle (314) on layering frame (31) rotates and is connected with bracing piece (323), establish and a plurality of depression bars (324) of fixedly connected with along the axial cover on bracing piece (323), it is a plurality of the one end that depression bar (324) kept away from layering frame (31) passes and presses from corresponding first annular (322) respectively and holds on the strip metal sheet of first annular (322) department of rolling dish (32).

3. The blade rope pricking machine as recited in claim 1, further comprising: the tensioning travelling device (24) comprises a tensioning support (241) fixedly connected to the base (21), an upper roller (2411) and a lower roller (2412) which are connected to the tensioning support (241) in a parallel rotating mode along the height direction and a travelling driving mechanism for driving the lower roller (2412) to rotate, the upper roller (2411) is connected to the tensioning support (241) in a rotating mode through a bearing seat (2413), the bearing seat (2413) is connected with the tensioning support (241) in a sliding mode along the vertical direction, a bolt (2414) is connected between the top of the bearing seat (2413) and the tensioning support (241), one end of the bolt (2414) abuts against the top of the bearing seat (2413), and the bolt (2414) is in threaded connection with the tensioning support (241) and the end portion, far away from the bearing seat (2413), of the bolt (2414) is fixedly connected with a knob (2415).

4. The blade rope pricking machine as recited in claim 1, further comprising: wrap silk device (4) including wrap silk support (41), be located wrap silk support (41) on each other the butt be used for pressing steel wire in big gyro wheel (411) and little gyro wheel (412) and drive big gyro wheel (411) and little gyro wheel (412) pivoted actuating mechanism in the middle of the strip steel sheet, be provided with second annular (4121) that supply the steel wire embedding on the outer wall of little gyro wheel (412), be provided with on the outer wall of big gyro wheel (411) with second annular (4121) assorted bulge loop (4111), the bottom of big gyro wheel (411) is provided with and is used for driving walking gyro wheel (413) that the strip steel sheet that has inlayed the steel wire is walked forward along vertical direction and big gyro wheel (411) butt.